DE1144169B - Mortar mix - Google Patents

Description

Mortar mix The invention relates to a mortar mix for building purposes.

It is known that the walls and ceilings of a building in many Cases before their final surface treatment by painting or wallpapering or. Like. Must be subjected to a pretreatment. For this purpose, recently often the treatment with a plastering mortar applied, which the usual lime or Can replace lime-cement mortar plaster on masonry or concrete walls.

It is a plaster mortar and filler of this type known that essentially of a water-soluble cellulose derivative and inorganic fillers different grain size and contains so much water that the mortar with plastic Consistency can be applied. If necessary, this plaster mortar can also be used Dyes, hydraulic binders and fibers of any kind, as well as wetting agents included to facilitate mixing of the ingredients.

The requirements that must be made of such a plastering mortar consist in the fact that it is pliable and easy to work with, firmly attached to the application surface adheres, sets without significant shrinkage and without cracking or strong "setting" as well as a permanent and suitable surface for the subsequent treatment represents.

It has been found that the properties of such a mortar largely depend on the grain size composition of the inorganic filler or. Aggregates are affected. In the known plastering mortar mentioned, the fillers consist of a coarse-grained portion of sand in graduated grain sizes, ground and graduated feldspar, dolomite or the like, and a portion of very fine-grained material such as whitewashed chalk or kieselguhr. The grain sizes of the fillers should be between about 0.0005 and about 0.8 mm, and as an example of the gradation of the grain sizes of the sand material is given: Grains of sand larger than 0.3 mm. . . . . . . . . . . . 1 to 10% from 0.15 to 0.3 mm. . . . . . . . . . . 40 to 50% from 0.075 to 0.15 mm. . . . . . . . . 10 to 20% below 0.075 mm. . . . . . . . . . . . . . . 30 to 50% The present invention relates to an improved mortar mixture of water-soluble cellulose derivatives or commercially available plastic emulsions or emulsions of natural or artificial rubber as a binder, water and an inorganic filler or aggregate with different grain sizes. The invention is based on the finding that calcium hydrosilicate, which is produced by hydrothermal treatment of a mixture of a finely divided silica-containing material and a lime-like material and obtained in finely crystalline form with grain sizes of essentially less than 0.1 mm, is used as a fine-grain aggregate material for one such mortar is excellently suited.

Accordingly, the mortar mixture according to the present invention is characterized in that the fine-grained portion of the filler or aggregate, which has grain sizes below 0.1 mm, contains at least 15 to 20 percent by weight of a crystalline calcium hydrosilicate, which is produced by hydrothermal reaction between a finely ground silica containing material and a calcareous material at temperatures of 140 to 200 ° C, preferably 160 to 185 ° C, and has grain sizes of substantially 0.01 to 0.001 mm.

In this plaster mortar, the proportion of coarse-grained material 25 up to 65 parts by weight and the proportion of fine-grained constituents 70 to 30 parts by weight be. In addition, the plaster mortar contains an organic binder in an amount from 1 / 1o to 5%, based on the dry mix, and water in an amount that is enough to get the Mortar has a dough-like or plastic consistency admit.

The grain sizes and proportions of the inorganic aggregate can be measured as follows: Grain sizes over 0.3mm. . . . . . . . . . . . . . . 5 to 150% from 0.15 to 0.3 mm ... . . . . . . . . 35 to 50% from 0.1 to .15 mm. . . . . . :. . . . 15 to 25% from 0.1 to 0.01 mm. . :. . . . . . . . 15 to 30% less than 0.01 mm .. ... . . ... . . . 20 to 40% Examples of suitable organic binders are water-soluble cellulose derivatives, such as. B. methyl cellulose and ethyl cellulose to name. Other examples are commercially available emulsions made of plastics, such as polyvinyl compounds, e.g. B. polyvinyl chlorides, polyvinyl ethers, also acrylic esters, polystyrene; Emulsions of natural or synthetic rubber, such as neoprene, isobutylene, styrene butadiene, etc.

To facilitate mixing of the components of the mortar composition it may optionally be advantageous, as is known per se, a small amount a wetting agent, at most 1%, based on the dry parts of the mixture, to add. Suitable agents of this type are alkali salts and polyacrylic esters, such as low polymer ammonium polyacrylates, polyglycols and polyglycol derivatives, etc. to call. The wetting agent should not be foaming.

By using the calcium hydrosilicates described as fillers according to the invention instead of chalk or other conventional fillers The following main advantages are achieved: The consistency of the mortar mass is increased better, which is shown primarily in the fact that the water content within a larger interval can be varied without the consistency noticeably differing from the suitable deviates.

The mortar does not dry out as quickly as when using chalk or the like, which is particularly important; when he is on a highly absorbent Base area, e.g. B. brick or lightweight concrete is applied. This will make that Applying the mortar or plastering paste makes it easier and too quick drying prevents the previously used mortar masses of this type from shrinking and Cracking and also poor adhesion and strength of the plaster layer caused.

As a result of the delayed drying out, the mortar layer has also diminished Absorbency, which is advantageous for a subsequent painting because the risk of that the binder of the paint is sucked into the layer is reduced.

To demonstrate that the mortar mixture according to the invention is compared to the aforementioned known plastering mortar and putty paste, the result of comparative tests is given below: Experiment A (known mixture) Composition of the putty paste 4 parts methyl cellulose, 100 parts whipping chalk; 200 parts of sand; of which 80 parts with grain sizes below 0.1 mm, 3 parts pumice stone powder, 90 parts water. The grain size distribution of the sand used was as follows: greater than 0.3 mm. . . . . . . . . . . . . . . . 3.5% 0.15 to 0.3 mm. . . . . . . . . . . . . . . . . . 46% 0.075 to 0.15 mm. . . . . . . . . . . . . . . . 18% below 0.075 mm. . . . . . . . . . . . . . . . . . 32; 5% This sand contained around 40% with grain sizes below 0.1 mm. Experiment B (inventive mass) Composition of the putty compound 0.5 parts of methyl cellulose, 4 parts of polyvinyl alcohol dispersion, 100 parts of lightweight concrete waste, containing 60% calcium hydrosilicate, with grain sizes below 0.1 mm, 200 parts of the above sand; 105 parts of water.

The fine-grained portion of this Spachtehnasse thus contained 60 parts of calcium hydrosilicate and 40 + 80 parts of other components with grain sizes below 0.1 mm, from which it follows that the calcium hydrosilicate content of the fine-grained portion was about fraud. The leveling compound was used to level a brick wall surface at room temperature.

It turned out to be possible with the filler (A) only while 2 minutes to work, d. i.e., the turnaround time to apply the mass only 2 minutes. The drying speed (drying time) was 10 minutes. In the After drying, large settlements and cracks were found on the applied filler layer emerged from indentations in the wall surface.

The spatula mass (B) was much more pliable than the mass (A) and could be processed for 3½ minutes, more than 75% longer. The drying time was 14 minutes in this case. In the applied putty layer could only be minimal Settlement and no cracking are observed.

The differences in processing time and drying time are insofar of importance than they are essential for a mortar of the type according to the invention ensure the required suppleness and ease of processing or considerably improve and reduce the shrinkage significantly. As this increases the risk of Crack formation is reduced, make those achieved with the leveling compound (B) Results compared to the leveling compound (A) represent a significant technical advance represent.

This superiority of the Spachtehnasse invention is based on the calcium hydrosilicate content of this filler as a fine-grain filler instead of a corresponding amount of whiting chalk. Thanks to the properties mentioned the proposed filler can also be used in thicker layers with good results can be applied than the previous leveling compounds, which is an essential additional Advantage is.

The best results are achieved if only calcium hydrosilicate is used as a fine-grain filler in the mortar mixture. For economic and practical reasons, however, it is often necessary or expedient to partially form the fine-grain filler from other materials, e.g. B. from the fine fraction of sand, which is otherwise sieved, or from chalk or diatomaceous earth. However, according to the invention, as stated above, at least 15 to 20% of the fine-grained fraction should consist of calcium hydrosilicate, so that the desired effect is achieved. example 1 Parts by weight Calcium hydrosilicate. ... . . . . . . . . . . . . 20th Sand in graded grain sizes .... 80 Binder (aqueous emulsion of a Plastic) ... ... . ....... ... .... 2 Water ........................... 30 The sand can, for. B. contain the following grain sizes and grain size proportions: Grain sizes weight percent over 0.3mm. . . . . . . . . . . . . . . . . 5 to 15 from 0.15 to 0.3 mm. . . . . . . . . . . 40 to 50 from 0.1 to 0.15 mm. . . . . . . . . . . 15 to 25 less than 0.1 mm. . . . . . . . . . . . . . . . . 20 to 40 The calcium hydrosilicate is produced by the reaction of a water suspension which contains equal parts of quartz powder and slaked lime and is treated in an autoclave at 180 ° C. for 5 hours in the manner described above. A certain amount of water is then removed from the suspension of calcium hydrosilicate obtained in this way, the solid particles of which have grain sizes below 0.1 mm, whereupon it is mixed with the other components of the mortar mixture. Example 2 60 parts of lightweight concrete waste containing 30% calcium hydrosilicate are ground until 60% of it passes through a sieve with a mesh size of 0.1 mm. This lightweight concrete powder is mixed with 20 parts of sand in graduated grain sizes and 2 parts of water-soluble cellulose glue and water to a suitable consistency. Example 3 Parts by weight Calcium hydrosilicate. . . . . . . . . . . . . . . . 50 Sand, 1 to 0.1 mm. . . . . . . . . . . . . . . . 20th Methyl cellulose. . . . . . . . . . . . . . . . . . . . 0.5 Water-soluble plastic powder .... 2 Wetting agents. . . . . . . . . . . . . . . . . . . . . . . . 0.1 The above-mentioned examples contain the calcium hydrosilicate with a fineness within the limits of essentially 0.01 to 0.001 mm. Furthermore, the proportions of the constituents given in the aforementioned examples can be changed within wide limits, which depend on the raw materials used.

Claims (1)

PATENT CLAIM: Mortar mixture made from water-soluble cellulose derivatives or commercial plastic emulsions or emulsions of natural or artificial Rubber as a binder, water and an inorganic filler or aggregate different grain size, characterized in that the fine-grained portion of the Filling or Aggregate, which has grain sizes below 0.1 mm, at least 15 to Contains 20 percent by weight of a crystalline calcium hydrosilicate, which by hydrothermal Reaction between a finely ground material containing silica and a calcareous material at temperatures of 140 to 200 ° C, preferably 160 to 185 ° C, is produced and has grain sizes of substantially 0.01 to 0.001 mm. Into consideration Drawn pamphlets German patent specification No. 868 572.